竹材木素降解菌发酵条件优化及竹材降解红外光谱分析  被引量:6

Optimum Condition of Selectively Decomposing Bamboo by the White Fungi Lignin and FTIR Analysis on Bamboo Lignocelluose Degradation

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作  者:周德明[1] 董晓娜[1] 陈彧[1] 

机构地区:[1]中南林业科技大学生命科学与技术学院,湖南长沙410004

出  处:《生物技术》2010年第1期73-75,共3页Biotechnology

基  金:湖南省自然科学基金项目(04jj3055)资助

摘  要:目的:对所筛选菌株进行发酵条件的优化,以期找到适合该菌的最佳培养条件。方法:通过单因素试验及正交试验,得到最佳培养条件,并且对降解后的竹材结构进行红外光谱分析。结果:得到最佳培养条件:培养温度35℃,初始pH5.5,摇瓶装量40mL,摇床转速160r/min时,该菌株具有较高的酶活力。Mnp和Lip酶活力分别达到631U/L和340U/L,比原发酵条件提高了45.9%、49.3%。红外光谱分析后发现竹材中的木质素结构被严重破坏,难降解的大分子长键烃被切断成易降解的小分子短键烃。结论:所筛选菌株对竹材木质素有选择性降解能力,确定其发酵条件后为进一步试验奠定基础。Objective:In order to research the optimum culture condition of a white rot fungi Trametes versicolor CSUFT -00718, the fermentation conditions were investigated. Method : The optimal culture conditions were obtain through the single - factor test and orthogonal test. Orthogonalhe structure of the untreated bamboo and the treated bamboo degraded under the optimal fermentation condition was analyzed through infrared spectroscopy. Result: The optimum culture components are: loading amount 40 mL, culture temperature 35℃, initial pH5.5 , rotational speed of 160r/min. The activity of Mnp and Lip reached 931U/L and 543 U/L after eight days. Compared with the formal femlentation condition, the enzyme activity enhanced 45.9% and 49.3%, respectively. Compared with the structure of untreated bamboo, the structure of the treated bamboo was greatly altered long - bond hydrocarbons of giant molecule diffictdt to be biodegraded were degraded into short - bond hydrocarbons of small molecule, which could be easily biodegraded. Conclusion: The strains could selectively decomposing bamboo lignin.

关 键 词:木素降解 锰过氧化物酶 木质素过氧化物酶 优化 FTIR分析 

分 类 号:Q93-33[生物学—微生物学]

 

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